automatic weather station

agri weather station

portable weather station

rainfall monitoring system

wind speed sensor


smart watering systems

sprinkler irrigation

drip irrigation

water fertilizer machine

irrigation controller

Soil sensor

soil all sensor

soil conductivity sensor

soil npk sensor

soil sensor precise

soil sensor portable


agri monitoring system

agri control system

irrigation controller smart watering sprinkler controller

Plant monitor

spore trap monitoring

pest monitoring system

root scanner

fruit stem growth monitor



What monitoring equipment is needed for the construction of intelligent greenhouses

User:JXCTUpload time:Nov 10 2021

Multiple wireless sensors are set in the smart greenhouse. Temperature, humidity, lighting intensity and carbon dioxide levels are measured using electronic and environmental sensors. The collected data can be exported from a computer to facilitate growers’ data analysis. Thus regulating the temperature environment. In addition, data can also be stored in the smart greenhouse cloud platform. Intelligent greenhouse monitoring equipment mainly includes soil sensors, meteorological sensors, greenhouse control equipment (rolling machine, fan, etc.). These devices are connected together through the Internet of things to work together and realize automatic control of the greenhouse.

Intelligent greenhouse scheme
Intelligent greenhouse scheme
Greenhouse automatic monitoring equipment

Low energy consumption soil sensor, agricultural Iot sensor, weather sensor. Capture a variety of climate, agricultural, and safety data points. Reliable, cost-effective wireless connectivity. Data can be transmitted from cross-greenhouse sensors to remote gateways. Greenhouse cloud platform to obtain information from various agricultural sensor data. And visualized on a large screen to make informed decisions about agricultural activities. The platform can also be directly integrated into existing greenhouse control systems. This triggers automatic operations on hVAC, lighting, sprinklers and spraying networks.

If it is a commercial intelligent greenhouse, its complex is scattered over a large geographical area. A remote wireless connection with strong penetration is required. In addition to providing reliable data transmission. This solution also allows for the installation of gateways closer to the power supply to reduce wire ditches. Scalability is another consideration. Because it minimizes the number of gateways required to save on hardware, installation, and administration costs. Most importantly, the connection must have high power efficiency so that the sensor can sit still for years. And minimize maintenance. With the development of the Agricultural Internet of Things. Commercial intelligent greenhouses can realize the unified management of multiple regions and realize the real greenhouse construction.